A coated fine metallic wire intended for use as a bonding wire in a semiconductor device, includes a fine metallic wire and an insulative layer which contains a pigment or dye which causes the insulative layer to absorb laser light at a high efficiency. The insulative layer is readily removable with a laser light, with no carbonized matter remaining on the fine wire and without damaging the fine wire.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A coated metallic wire for being irradiated by a laser light having a predetermined wavelength, comprising, a fine metallic wire, and an insulative layer, which is formed around said fine metallic wire and absorbs said laser light having a predetermined wavelength, thereby to selectively remove the insulative layer on said metallic wire, wherein said fine metallic wire comprises gold, and wherein said insulative layer comprises nylon resin containing more than 3 but no more than 35 weight percent of iron black pigment.
2. A coated fine metallic wire according to claim 1, wherein: said insulative layer comprises more than 3 but no more than 35 weight percent of dye.
3. A coated fine metallic wire according to claim 2, wherein: said dye comprises azo dye, anthraquinone dye, indigoid dye, diphenylmetane dye, tryphenylmetane dye, xanthene dye, acridine dye, azine dye, oxazine dye, thiazine dye, quinoline dye or phthalocyanine dye.
4. A coated fine metallic wire according to claim 1, wherein: said insulative layer comprises more than 3 but no more than 30 weight percent of carbonic impalpable powder.
5. A coated fine metallic wire according to claim 4, wherein: particle diameter of said carbonic impalpable powder is less than 1 .mu.m.
6. A coated fine metallic wire according to claim 1, wherein: said fine metallic wire serves as a core metallic wire of a bonding wire used in a semiconductor device.
7. A coated fine metallic wire according to claim 1, wherein: said fine metallic wire is formed of a material such that said insulative layer is selectively removable by irradiation with the laser light without melting said fine metallic wire.
8. A coated fine metallic wire according to claim 1, wherein: said insulative layer is formed of a material such that said laser light irradiates said insulative layer such that no carbonized matter remains on a surface of said metallic wire.
9. A coated fine metallic wire according to claim 1, wherein: said insulative layer is formed directly on a surface of said fine metallic wire.
Cooperative Patent Classification codes for this invention. Click any code to explore related patents in that topic.
October 16, 1998
May 29, 2001
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